# Cocculus pendulus (Cocculus pendulus) **Canonical URL:** https://ingredients.hermeticasuperfoods.com/ingredients/cocculus-pendulus-cocculus-pendulus **Data Source:** Hermetica Superfoods Ingredient Encyclopedia **Updated:** 2026-04-05 **Evidence Score:** 1 / 10 **Category:** Middle Eastern **Also Known As:** Cocculus pendulus (J.R.Forst.) Diels, Menispermaceae climbing shrub, Fish killer plant, Balochistan analgesic herb ## Overview Cocculus pendulus leaf extracts are dominated by phytosterol derivatives—most prominently 4,22-stigmastadiene-3-one (22.3% of GC-MS profile) and cycloartenol acetate (5.6%)—alongside alkaloids (30.45±0.32 mg/g in roots) and flavonoids that collectively mediate [antioxidant](/ingredients/condition/antioxidant), analgesic, and CNS-depressant activity. In rodent analgesic models, oral administration of 500 mg/kg crude ethanolic extract reduced acetic acid-induced writhes from 69.8±0.80 to 34.20±2.08 (p<0.05) and prolonged tail-immersion latency to 134.84±1.56 seconds, outcomes comparable in magnitude to pharmacological reference standards. ## Health Benefits - **Analgesic Activity**: Crude ethanolic extract at 500 mg/kg produced a statistically significant (p<0.05) reduction in pain-related writhes in the acetic acid writhing test and extended heat-pain latency in the tail immersion assay, suggesting peripheral and central analgesic components likely attributable to flavonoids and tannins. - **CNS Depressant Effects**: Animal open-field testing showed dose-dependent reductions in locomotor activity (squares crossed: 73.20±1.93 control vs. 56.89±0.90 at 500 mg/kg) and rearing behavior, indicating sedative or anxiolytic-like properties mediated by unidentified alkaloid or flavonoid constituents. - **Antioxidant Free Radical Scavenging**: Aqueous leaf extracts used in green synthesis of silver nanoparticles demonstrated DPPH-equivalent free radical scavenging (AgNP IC₅₀ 0.53±0.30 mg/ml), attributed to phenolic hydroxyl groups (-OH at 3452 cm⁻¹) that donate electrons to [reactive oxygen species](/ingredients/condition/antioxidant). - **Antibacterial Properties**: Green-synthesized silver nanoparticles capped by Cocculus pendulus leaf extract exhibited antibacterial activity against gram-positive bacterial strains in vitro, with the extract's phenolic and nitrogen-containing functional groups (N-H at 1639 cm⁻¹) serving as both reducing and capping agents. - **High Phytosterol Content**: Roots yield exceptionally high sterol concentrations (85.32±2.42 mg/g) including cholesta-8,24-dien-3-ol and 4,22-stigmastadiene-3-one; phytosterols are structurally associated in other species with cholesterol modulation and [anti-inflammatory](/ingredients/condition/inflammation) membrane effects, though these endpoints have not been directly tested in C. pendulus. - **Antipyretic Ethnopharmacological Use**: Persian herbalism historically classified this plant as a fish-killing and fever-reducing agent; while no controlled antipyretic trials exist, the presence of flavonoids, tannins, and alkaloids provides a plausible phytochemical basis for anti-inflammatory and temperature-modulating properties observed in related Menispermaceae members. ## Mechanism of Action At the chemical level, phenolic hydroxyl groups identified by FTIR at 3452 cm⁻¹ in leaf extracts donate hydrogen atoms or electrons to free radicals, reducing [oxidative stress](/ingredients/condition/antioxidant) through non-enzymatic scavenging mechanisms analogous to those of known phenolic antioxidants. The alkaloid fraction (30.45±0.32 mg/g in roots) and flavonoid constituents are the most plausible mediators of observed CNS depression and analgesia, potentially acting through GABAergic potentiation or opioid receptor modulation—pathways well-documented for structurally related Menispermaceae alkaloids such as those in Cocculus hirsutus—though receptor-level binding studies specific to C. pendulus have not been conducted. The dominant sterol, 4,22-stigmastadiene-3-one (22.3% of leaf extract GC-MS profile), belongs to a class of phytosterols known in other plant systems to inhibit pro-[inflammatory](/ingredients/condition/inflammation) cyclooxygenase and 5-lipoxygenase pathways, offering a mechanistic hypothesis for the plant's traditional antipyretic and analgesic applications. Cycloartenol acetate, a triterpenoid precursor sterol (5.6% of extract), may further contribute through membrane-stabilizing effects and modulation of inflammatory signaling cascades, but direct enzyme inhibition or receptor binding data for isolated compounds from this species remain unreported. ## Clinical Summary No human clinical trials have been conducted on Cocculus pendulus for any indication, making definitive clinical conclusions impossible at this time. The available preclinical data—while internally consistent and statistically significant within animal models—demonstrate analgesic and CNS-depressant effects at 250–500 mg/kg oral crude ethanolic extract in rodents, with effect sizes (e.g., writhing reduction from 69.8 to 34.2 events) comparable to reference analgesic standards in the same assays. These findings align with the plant's traditional ethnomedicinal use in Balochistan for pain and neurological conditions but cannot be extrapolated to human efficacious doses, safety profiles, or therapeutic recommendations without validated allometric dose conversion and clinical investigation. Confidence in clinical applicability is very low, and this ingredient should be regarded as a candidate for future exploratory Phase I safety and pharmacokinetic study rather than as an evidence-based therapeutic option. ## Nutritional Profile Cocculus pendulus is not consumed as a food or conventional nutritional supplement, and no macronutrient or micronutrient composition data (proteins, carbohydrates, fats, vitamins, minerals) have been reported in available scientific literature. From a phytochemical standpoint, roots contain the highest concentrations of sterols (85.32±2.42 mg/g) and alkaloids (30.45±0.32 mg/g), stems contain sterols at 71.43±1.24 mg/g, and whole-plant ethanolic extracts test positive for saponins, tannins, and flavonoids as major secondary metabolite classes. The four most abundant GC-MS-identified compounds in leaf extracts are 4,22-stigmastadiene-3-one (22.31%), 2-pinen-3-one (18.70%), 1-octadecanesulfonic acid (18.36%), and cycloartenol acetate (5.64%), with minor constituents including (S)-(−)-limonene (1.95%) and cholesta-8,24-dien-3-ol (3.66%). Bioavailability of these compounds in humans is entirely unstudied; lipophilic sterols like 4,22-stigmastadiene-3-one would theoretically require fat co-administration for optimal intestinal absorption based on pharmacokinetic principles established for structurally similar phytosterols. ## Dosage & Preparation - **Crude Ethanolic Extract (CEE) – Animal Research Dose**: 250–500 mg/kg body weight administered orally in rodent studies; no validated human equivalent dose has been established. - **Ethanolic Maceration/Soxhlet Extraction**: Whole plant, leaves, roots, or stems are subjected to maceration or Soxhlet extraction using ethanol as solvent; this is the standard preparation method used in all published pharmacological studies. - **Aqueous Leaf Decoction (Traditional)**: Ethnomedicinal preparation involves boiling plant material in water for fever and pain; exact ratios and preparation times are not standardized in available literature. - **Silver Nanoparticle Synthesis (Research Use Only)**: 30 ml of aqueous leaf extract mixed with silver nitrate solution, stirred at 500 rpm, 25°C for 2–24 hours until dark brown color confirms nanoparticle formation; this form is not intended for human consumption. - **Standardization**: No standardized extract with defined marker compound percentages is commercially available; the GC-MS-identified marker 4,22-stigmastadiene-3-one (22.3%) represents a candidate standardization target. - **Timing and Form Notes**: All pharmacological data derive from single-dose acute studies; chronic dosing regimens, optimal timing, and bioavailability-enhancing formulations remain entirely unstudied. ## Safety & Drug Interactions In an acute oral toxicity screen, crude ethanolic extract showed no significant toxicity in animals at doses up to 2 g/kg body weight, suggesting a relatively wide acute safety margin in rodent models, but this finding cannot be directly extrapolated to humans without formal toxicological studies including repeat-dose, genotoxicity, and reproductive toxicity assessments. No drug interactions, contraindications, or adverse effect profiles have been documented in either human case reports or systematic animal pharmacovigilance studies, reflecting the extreme paucity of safety data rather than confirmed tolerability. The high alkaloid content (30.45 mg/g in roots) and the ichthyotoxic ethnobotanical classification raise theoretical concerns about neuromuscular or CNS effects at suprapharmacological doses, and individuals taking CNS depressants, sedatives, opioids, or GABAergic medications should exercise particular caution given the observed CNS depression in animal models. Pregnancy and lactation safety is entirely uncharacterized; in the absence of any human safety data, use during pregnancy, lactation, or in pediatric populations cannot be recommended, and any therapeutic application should occur only under qualified medical supervision. ## Scientific Research The existing evidence base for Cocculus pendulus consists entirely of preliminary preclinical studies and phytochemical characterization reports, with no published human clinical trials identified in any available database as of the most recent search. Rodent pharmacological studies assessed analgesic activity using the acetic acid writhing test and tail immersion model, and CNS effects via forced swim and open-field tests, reporting statistically significant (p<0.05) dose-dependent outcomes at 250–500 mg/kg oral crude ethanolic extract, but sample sizes, randomization procedures, and blinding protocols are not fully specified in available literature. A GC-MS phytochemical study of leaf extracts and a separate multi-tissue phytochemical screening study (roots, stems, whole plant) provide quantitative compositional data, while a nanotechnology study demonstrated in vitro antibacterial and [antioxidant activity](/ingredients/condition/antioxidant) of extract-synthesized silver nanoparticles. Overall, the evidence tier is strictly preliminary: findings are hypothesis-generating rather than confirmatory, effect generalizability to humans is unknown, and no dose-response relationships, pharmacokinetic parameters, or safety margins have been established in controlled human research. ## Historical & Cultural Context In Persian and Greco-Arabic herbalism, Cocculus pendulus was recognized under regional vernacular names as a plant with fish-stupefying (ichthyotoxic) properties—a characteristic shared with several Menispermaceae members whose alkaloids cause narcosis in aquatic animals—and was applied in traditional fever management within the broader Middle Eastern pharmacopeia. In the Balochistan region straddling present-day Pakistan and Iran, indigenous healers incorporated the whole plant in analgesic and neuropharmacological remedies, consistent with the genus-level ethnopharmacological use of Cocculus species across South Asia for pain, spasm, and [inflammatory](/ingredients/condition/inflammation) conditions. The Menispermaceae family to which it belongs has a documented history spanning Ayurvedic, Unani, and Persian medical traditions, with related species such as Cocculus hirsutus and Cissampelos pareira carrying extensive classical textual references—though specific historical manuscript citations for C. pendulus itself are sparse and its use appears largely transmitted through oral ethnomedicinal tradition. The fish-killing application likely reflects the presence of isoquinoline-type alkaloids known elsewhere in the family to disrupt neuromuscular function, a property that simultaneously underscores both the plant's bioactive potential and the caution warranted in human applications. ## Synergistic Combinations No formally studied ingredient combinations or synergistic stacks have been reported for Cocculus pendulus in the available literature. Based on mechanistic inference, co-administration with other flavonoid-rich botanicals (such as Quercetin or Boswellia serrata extracts) could theoretically potentiate [anti-inflammatory](/ingredients/condition/inflammation) and analgesic effects through complementary COX/LOX pathway modulation, while bioavailability of the lipophilic sterol fraction might be enhanced by phospholipid complex formulations or co-ingestion with dietary fat—strategies well-validated for structurally analogous phytosterols in other plant species. These combinations remain entirely speculative for C. pendulus and require experimental validation before any clinical recommendation can be made. ## Frequently Asked Questions ### What is Cocculus pendulus used for traditionally? In Persian and Balochistan ethnomedicine, Cocculus pendulus has traditionally been used as a fever remedy, analgesic, and fish-stupefying agent. Its whole plant is collected and prepared as decoctions or ethanolic extracts for pain and neurological conditions, consistent with the broader Menispermaceae family's established ethnomedicinal role across South Asian and Middle Eastern medical traditions. ### What are the main bioactive compounds in Cocculus pendulus? GC-MS analysis of leaf ethanolic extracts identifies 4,22-stigmastadiene-3-one as the dominant compound (22.3%), followed by 2-pinen-3-one (18.7%), 1-octadecanesulfonic acid (18.4%), and cycloartenol acetate (5.6%). Root tissue contains the highest concentrations of alkaloids (30.45±0.32 mg/g) and sterols (85.32±2.42 mg/g), and the whole plant tests positive for saponins, tannins, and flavonoids. ### Is Cocculus pendulus safe for human use? Animal acute toxicity studies showed no significant adverse effects at oral doses up to 2 g/kg body weight, suggesting a wide acute safety margin in rodents. However, no human safety trials, drug interaction studies, or long-term toxicological data exist, and the plant's high alkaloid content and traditional fish-narcotizing properties indicate a need for caution—especially for individuals on CNS depressants, pregnant women, or those with neurological conditions. ### Are there any clinical trials on Cocculus pendulus? No human clinical trials have been published for Cocculus pendulus for any indication as of current available evidence. All pharmacological data derive from rodent studies and in vitro phytochemical or nanotechnology experiments, placing the evidence at a strictly preliminary preclinical level that cannot support therapeutic dosing recommendations or efficacy claims in humans. ### What is the effective dose of Cocculus pendulus extract? In rodent analgesic and CNS studies, doses of 250–500 mg/kg crude ethanolic extract administered orally produced statistically significant (p<0.05) effects, with 500 mg/kg showing the strongest results (writhing reduced from 69.8 to 34.2 events; tail immersion latency 134.84±1.56 seconds). No validated human equivalent dose has been established, and allometric scaling of these animal doses without pharmacokinetic and safety data in humans would be inappropriate. ### Does Cocculus pendulus have both pain-relieving and sedative effects? Yes, Cocculus pendulus demonstrates dual pharmacological actions: studies show analgesic activity through peripheral and central mechanisms at 500 mg/kg dosing, while concurrent CNS depressant effects have been observed in animal open-field testing. This combination suggests the herb may provide pain relief alongside mild sedation, making it potentially useful for conditions involving both pain and restlessness. However, these effects warrant caution regarding operating machinery or performing tasks requiring alertness. ### What compounds in Cocculus pendulus are responsible for its pain-relieving effects? The analgesic activity of Cocculus pendulus is primarily attributed to flavonoids and tannins present in the crude ethanolic extract. These bioactive compounds appear to work through both peripheral pain pathways (reducing writhing responses) and central pain processing (extending heat-pain latency in tail immersion testing). The presence of multiple pain-modulating constituents suggests Cocculus pendulus may offer multi-target pain relief. ### How does the potency of Cocculus pendulus compare between different extraction methods? Research on Cocculus pendulus has focused on crude ethanolic extracts, which demonstrated significant analgesic effects at 500 mg/kg dosing in animal studies. Different extraction methods (aqueous, hydroalcoholic, or standardized extracts) may yield varying concentrations of active flavonoids and tannins, potentially affecting efficacy and bioavailability. Comparative studies between extraction methods have not been extensively published, making it difficult to determine which preparation form provides optimal potency. --- *Source: Hermetica Superfoods Ingredient Encyclopedia — https://ingredients.hermeticasuperfoods.com* *License: CC BY-NC-SA 4.0 — Attribution required. Commercial use: admin@hermeticasuperfoods.com*